Magneto-infrared spectroscopy of nonpolar epigraphene

ORAL

Abstract

We report on a magneto-infrared spectroscopy study of the new generation epigraphene grown on a nonpolar facet of SiC. We observe interband Landau level (LL) transitions that can be well described by a massless Dirac fermion model with a Fermi velocity of 1 x 106 m/s. The transitions remain visible as the magnetic field is down to 0.25 T, indicating that the carrier density is no greater than 3.6 x 1010 cm-2 as expected for charge-neutral nonpolar epigraphene. When the samples are grown thicker, LL transition splittings are spotted at high magnetic fields. Failing to explain the splittings with electron-hole asymmetry, we suggest that it could arise from the (twist) bilayer epigraphene components, which we will discuss with a numerical twist-bilayer model.

*This work is supported by the DOE/BES, grant # DE-FG02-07ER46451. The National High Magnetic Field Laboratory is supported by the NSF through NSF/DMR-1644779 and the State of Florida.

Presenters

  • Tianhao Zhao

    • Georgia Institute of Technology

Authors

  • Tianhao Zhao

    • Georgia Institute of Technology

  • Yuxuan Jiang

    • National High Magnetic Field Laboratory
    • National High Magnetic Field Lab

  • Yiran Hu

    • Georgia Institute of Technology

  • Yue Hu

    • Georgia Institute of Technology

  • Grant H Nunn

    • Georgia Institute of Technology

  • Mykhaylo Ozerov

    • National High Magnetic Field Laboratory
    • National High Magnetic Field Lab

  • Dmitry Smirnov

    • National High Magnetic Field Lab
    • National High Magnetic Field Laboratory
    • National High Magnetic Field Laboratory, Tallahassee, Florida

  • lei ma

    • Tianjin Univ

  • Claire berger

    • Georgia Institute of Technology

  • Walter de Heer

    • Georgia Institute of Technology

  • Zhigang Jiang

    • Georgia Institute of Technology
    • Georgia Inst of Tech